By DR. SANAA ALSHAARAWY DR. ESSAM ELDIN SALAMA
OBJECTIVES : At the end of the lecture, the student should be able to describe : Changes in the bilaminar germ disc (embryonic plate). Formation of the secondary embryonic mesoderm (intraembryonic mesoderm). Formation of trilaminar germ disc. Formation of the primitive streake & notochord. Differantiation of intra-embryonic mesoderm.
Implantation of the blastocyst is completed by the end of the 2 nd week. blastocyst is completed by the end of the 2 nd week. this process occurs, changes occur in the embryoblast that produce a bilaminar embryonic disc. As this process occurs, changes occur in the embryoblast that produce a bilaminar embryonic disc. The embryonic disc gives rise to the germ layers that form all tissues & organs of the embryo. Extraembryonic structures forming during the 2 nd week are : the amniotic cavity, amnion, yolk sac, and connecting stalk.
By the (8 th ) day : The Inner Cell Mass (Embryoblast)is differentiated into a bilaminar plate of cells composed of Two layers : (A) Epiblast High columnar cells adjacent to the amniotic cavity. (B) Hypoblast Small cuboidal cells adjacent to the blastocyst cavity (Yolk Sac).
EXTRA EMBRYONIC MESODERM A loose connective tissue, arises from the yolk sac. It fills all the space between the trophoblast externally and the exocoelomic membrane & amnion internally. It surrounds the amnion and yolk sac.
Multiple spaces appear within the Extraembryonic mesoderm. These spaces fuse and form the Extraembryonic Coelom. It surrounds the amnion and yolk sac.
It is the process through which Bilaminar the Bilaminar embryonic disc is Trilaminar changed into a Trilaminar disc, as a new tissue (2ry or intraembryonic mesoderm) appears between the ectoderm and endoderm.
TRILAMINAR DISC Now the embryonic disc is formed of 3 layers: Embryonic Ectoderm Intraembryonic Mesoderm. Embryonic Endoderm. Cells in these layers will give rise to all tissues and organs of the embryo.
GASTRULATION 3 rd week. Rapid development of the embryonic disc occurs during the 3 rd week. It It is characterized by: 1-Appearance of primitive streak. 2-Development of the prechordal plate. 3-Differentiation of three germ layers.
The first sign of Gastrulation is the appearance of “ primitive streak” By (15-16 day). It is a thickened band in the caudal part of the dorsal aspect of the epiblast.
By the end of the 3 rd week the cells of Primitive Streak gives rise to: Mesenchymal cells that migrate between Epiblast & Hypoblast to form a third layer - Intraembryonic Mesoderm. The anterior end of the primitive streak is called primitive node.
actively forms mesoderm Primitive streak actively forms mesoderm until the fourth week, then it diminishes in size and becomes an insignificant structure in the Sacrococcygeal region of the embryo. disappears by the end of the fourth week. Normally the primitive streak undergoes degeneration and disappears by the end of the fourth week.
It is developed from remnants of primitive streak. It is a benign tumor which contains elements of incomplete differentiated (3) germ layers. It is the most common tumor in newborn, infant mostly female. It is usually diagnosed by ultrasonography. It is removable by surgery and its prognosis is good.
PRECHORDAL PLATE It is a localised area of thickening of the Hypoblast (endoderm). oropharyngeal membrane It is the primordium of the oropharyngeal membrane, located at the future site of the oral cavity. It indicates: 1. The future Cranial end of the embryo. 2. The future site of the mouth. 3. It is an important organiser of the Head. There is no mesoderm in this area.
NOTOCHORD The notochord acts as a temporary axial skeleton for the embryo. It is replaced later on by vertebral column. Its formation starts by appearance of: 1.Prechordal plate. 2.Primitive streak. 3. Primitive node 4.Notochordal process. 5. Notochordal canal. 6. Notochordal plate. 7. Notochord. Notochordal process: It is an extension of cells from the primitive node to the oral cavity.
The notochord is a temporary structure around which the vertebral column forms. It extends from the primitive node to the oropharyngeal membrane. The notochord degenerates and disappears as the bodies of the vertebrae form, but it persists as of each intervertebral disc. The notochord degenerates and disappears as the bodies of the vertebrae form, but it persists as the nucleus pulposus of each intervertebral disc. The developing notochord induces the overlying ectoderm to thicken & form the neural plate, which will forms the central The developing notochord induces the overlying ectoderm to thicken & form the neural plate, which will forms the central nervous system (CNS).
1. Define the Primitive axis of the embryo and gives it some rigidity. 2. Serves as the basis for the development of the axial skeleton. 3. Indicates the future site of the vertebral bodies. 4. Induction of development of the CNS. By formation of the neuroectoderm that differentiated later into neural tube and neural crest cells
DIFFRANTION OF THE INTRAEMBRYONIC MESODERM It is divided into: 1-Medial part (Paraxial Mesoderm). 2-Middle part : (Intermediate mesoderm or nephrogenic mesoderm. 3-lateral part (Lateral mesoderm).
By the end of the third week, the paraxial mesoderm begins to divide into paired cuboidal masses, called somites. criteria for determining an embryo's age. Because the somites are so prominent during the 4 th & 5 th weeks, they are one of criteria for determining an embryo's age. By the end of 3 rd week, the first pair of somites appears in the future occipital region, so they develop craniocaudally. By the end of 5 th week, there are about pairs of somites.
paces The primordium of the intraembryonic coelom appears as isolated s paces in the lateral mesoderm. These spaces soon unite to form a single horseshoe-shaped cavity, the intraembryonic coelom.
During the second month, the intraembryonic coelom is divided into three body cavities: 1.pericardial cavity 2.pleural cavities 3.peritoneal cavity
Each of the three germ layers (ectoderm, mesoderm, and endoderm) gives rise to specific tissues and organs. Embryonic ectoderm gives rise to The surface ectoderm The neuroectoderm central & peripheral nervous systems,.
The embryonic mesoderm gives rise to : Paraxial : Skeleton (vertebral column & limbs), Straited musles, dermis Intermadiate : urogenital system Lateral plate : connective tissue and smooth muscle of viscera.
The embryonic endoderm is the source of the epithelial linings of the respiratory passages & gastrointestinal tract (GIT), including the glands opening into the GI tract & glandular cells of associated organs such as the liver and pancreas.